Cholecystokinin-dopamine interactions

Evidence for potentiation by CCK antagonists of the effect of cholecystokinin octapeptide in the elevated plus-maze

Systemic treatment with cholecystokinin octapeptide (CCK-8, 2.5-10 micrograms/kg, s.c.), a non-selective CCK agonist, decreased the exploratory activity of mice in an elevated plus-maze. At higher doses (5-10 micrograms/kg) CCK-8 reduced the frequency of rearing, but only 10 micrograms/kg of CCK-8 significantly inhibited the number of line crossings in the open-field test. A preferential CCKB antagonist L-365,260 (1 and 100 micrograms/kg, i.p.) and a non-selective CCK antagonist proglumide (0.1-1 microgram/kg, i.p.) potentiated the anti-exploratory effect of CCK-8 (2.5 micrograms/kg). Devazepide, a preferential CCKA antagonist, only at a high dose (100 micrograms/kg) tended to increase the action of CCK-8 in the plus-maze. However, the concomitant treatment of CCK-8 with L-365,260 and proglumide, differently from devazepide, also suppressed the locomotor activity in the open-field test. Therefore, it is likely that the potentiation by CCK antagonists of the anti-exploratory effect of CCK-8 is related to the suppression of motor activity. This peculiar interaction between CCK-8 and CCK antagonists could be explained in the light of the opposite role of CCKA and CCKB receptors in the regulation of motor activity in mice.

Opposite effects mediated by CCKA and CCKB receptors in behavioural and hormonal studies in rats

We compared the influence of two cholecystokinin (CCK) antagonists, devazepide and L-365,260 [3R-(+)-(2,3-dihydro-1-methyl-2-oxo-5-phenyl-1H-1,4-benzodiazepine-3y l)-N'-(3-methyl-phenyl)urea], upon two distinct phenomena, behavioural and hormonal effects of caerulein (5 micrograms/kg s.c.), and unselective CCK agonist, in rats. Behavioural effects were assessed in the elevated plus-maze and open field tests. In separate experiments, effects on thyrotropin (TSH), prolactin (PRL) and growth hormone (GH) levels in serum of male rats were studied. Caerulein inhibited the exploratory behaviour in the plus-maze. Time spent in the open part, the number of line crossings and closed arm entries were significantly decreased, whereas the ratio of failed attempts/closed arm entries was increased. The anti-exploratory effect of caerulein was antagonized by the pretreatment with L-365,260 (10 micrograms/kg), a preferential antagonist at CCKB receptors, but was increased by devazepide (1-100 micrograms/kg), a preferential CCKA antagonist. L-365,260 (1-100 micrograms/kg) and devazepide (1-100 micrograms/kg) given alone did not change the behaviour of rats in the plus-maze test. Caerulein (5 micrograms/kg) itself did not modify the locomotor activity of rats in open field. However, the concomitant administration of caerulein with devazepide (1-10 micrograms/kg) reduced the frequency of line crossings and rearings. In the hormonal studies caerulein significantly decreased the cold-induced increase of TSH levels in serum. GH and PRL levels were not markedly affected by caerulein.(ABSTRACT TRUNCATED AT 250 WORDS)

Effects of systemically administered ceruletide on the in vivo release and metabolism of dopamine in the medial prefrontal cortex of awake, freely moving rats: an in vivo microdialysis study

The effects of the cholecystokinin octapeptide-related peptide, ceruletide (CER), on the in vivo release and metabolism of dopamine (DA) in the medial prefrontal cortex were examined in awake, freely moving rats, using in vivo microdialysis. Subcutaneously administered CER (200 micrograms/kg) increased extracellular levels of DA, 3,4-dihydroxyphenylacetic acid (DOPAC), and homovanillic acid (HVA), indicating that extracellular levels of DOPAC and HVA may reflect DA release in the medial prefrontal cortex. Bilateral subdiaphragmatic vagotomy markedly attenuated the CER-induced effect, but did not abolish it completely. CER (10(-7) and 10(-10) M), applied locally via the dialysis tube, had no effect on the extracellular levels of either DOPAC or HVA. The CCK-A receptor antagonist, L-364,718 (3 mg/kg, i.p.), completely prevented CER-induced increases in the extracellular levels of DOPAC and HVA. The CCK-B antagonist, L-365,260 (3 mg/kg, i.p.), however, given 1 h before the CER treatment, slightly attenuated the CER-induced increase in the extracellular levels of DOPAC, but not the CER-induced increase in HVA, 60-180 min after the treatment. These findings indicate that systemically administered CER modulates the in vivo release and metabolism of DA in the medial prefrontal cortex. We suggest that systemically administered CER exerts its action on both vagal afferent nerves and the area postrema via CCK-A receptors, thus enhancing the in vivo release and metabolism of DA in the medial prefrontal cortex.

CCK-8 excites substantia nigra dopaminergic neurons by increasing a cationic conductance

Using the whole-cell patch-clamp technique, we investigated electrophysiological effects of cholecystokinin on acutely isolated dopaminergic (DA) neurons of rat substantia nigra (SN). During voltage-clamp recordings, sulfated cholecystokinin octapeptide (CCK-8) dose-dependently induced an inward current at the holding potential of -7O mV. Under current-clamp recordings, CCK-8 depolarized DA neurons and triggered action potentials. CCK-8-evoked inward current reversed its direction at 1.0 +/- 1.9 mV (n = 9), and the amplitude of inward current induced by CCK-8 was reduced in an external solution with low sodium concentration. Cholecystokinin tetrapeptide (CCK-4), a selective CCK-B receptor agonist, failed to induce an inward current. CCK-8-evoked cationic current was antagonized by lorglumide, a selective CCK-A receptor antagonist. PD135, 158, a highly selective and potent CCK-B receptor antagonist, failed to attenuate CCK-8-induced cationic currents. These results suggest that by activating CCK-A receptors, CCK-8 excites SN DA neurons via increasing a non-selective cationic conductance.

Molecular cloning, functional expression, and chromosomal localization of the human cholecystokinin type A receptor

The results presented here describe for the first time the molecular cloning of the human CCKA-R. Expression of the recombinant receptor shows the expected subtype pharmacology and coupling to phosphoinositide hydrolysis reported for the native human CCKA-R. This knowledge will enhance our understanding of its distribution, pharmacology, and structure and will improve our understanding of its physiological role in the gastrointestinal and nervous systems in humans. Ultimately, this should hasten the understanding and therapy of gastrointestinal and neuropsychiatric disorders.

Reversal of CRF- and dopamine-induced stimulation of colonic motility by CCK and igmesine (JO 1784) in the rat

1. The role of dopamine in the genesis of corticotropin releasing factor (CRF)- and emotional stress (ES)-induced stimulation of colonic motility, as well as the mechanism of antagonistic action of cholecystokinin octapeptide (CCK-8s) and igmesine (alpha sigma receptor ligand, formerly JO 1784) on dopamine-induced colonic hypermotility, have been investigated in the rat. 2. ES and i.c.v. injection of CRF (0.5 microgram kg-1) increased the frequency of colonic spike bursts by 63% and 114%, respectively. Prior i.c.v. administration of (+)-SCH 23390 (a D1 receptor antagonist, 10 micrograms kg-1) significantly (P < 0.05) reduced the CRF- and ES-induced increase in colonic spike burst; whereas, sulpiride (a D2 receptor antagonist, 10 micrograms kg-1) blocked the CRF-induced stimulation of colonic spike bursts but had no effect on the colonic response to stress. 3. I.c.v. injection of dopamine (100 micrograms kg-1), increased colonic spike burst frequency by 54%. (+)-SKF 38393 (5 micrograms kg-1), a selective D1 receptor agonist, and quinpirole (5 micrograms kg-1), a selective D2 receptor agonist, increased colonic spike burst frequency by 71% and 70% respectively. CCK-8s (0.1 microgram kg-1) and igmesine (0.1 microgram kg-1) injected i.c.v. completely prevented the stimulatory effects of dopamine, (+)-SKF 38393 and quinpirole. 4. Previous i.c.v. injection of devazepide, a CCKA receptor antagonist, (10 micrograms kg-1) antagonized the inhibitory effects of both CCK-8s and igmesine injected i.c.v. on dopamine-induced colonic hyperkinesia. 5. These results show that CRF stimulates colonic motility through activation of central dopaminergic mechanisms in response to stress; furthermore, CCK-8s inhibits dopamine-induced colonic hyperkinesia through a mechanism involving D1 and D2 receptors. The sigma receptor ligand igmesine, blocks the CRF and ES-induced colonic hyperactivity via an interaction with central CCK mechanisms.

Neuroprotective effect of cholecystokininB receptor antagonist on ischemia-induced decrease in CA1 presynaptic fiber spikes in rat hippocampal slices

The effects of cholecystokinin (CCK) receptor agonists and antagonists on hypoxia/hypoglycemia (ischemia)-induced decrease in CA1 presynaptic fiber spikes elicited by the stimulation of Schaffer collaterals were investigated using rat hippocampal slices. Treatment with the CCKB receptor agonist CCK tetrapeptide (CCK4, 0.01-10 microM) exacerbated the ischemia-induced decrease in the CA1 presynaptic potential in a concentration-dependent manner. Whereas, treatment with the CCKB receptor antagonist [(3R(+)-N-(2,3-dihydro-1-methyl-2-oxo-5-phenyl-1H-1,4- benzodiazepin-3-yl)-N1-(3-methylphenyl)-urea] (L365260), and not with CCKA receptor antagonist [(3S(-)-N-(2,3-dihydro-1-methyl-2-oxo-5-phenyl-1H-1,4- benzodiazepin-3-yl)-1H-indole-2-carboxamide] (L364718), produced a concentration-dependent attenuation of the ischemia-induced decrease. The magnitude of recovery of the CA1 field potentials in L365260-treated groups at 10 and 100 nM was 34% and 45%, respectively. The neuroprotective effect of L365260 (0.01 and 0.1 microM) was completely blocked by co-treatment with CCK4 (0.1 microM), a concentration that did not affect the decreased presynaptic potential induced by ischemia. These results demonstrated that the stimulation of the CCKB receptor played a detrimental role in the development of ischemic damage, whereas the blockade of CCKB receptors played a neuroprotective role in ischemic damage, suggesting a facilitatory role of CCK receptor-operated function in ischemia-induced neuronal deficits.

Conformational analysis of CCK-B agonists using 1H-NMR and restrained molecular dynamics: comparison of biologically active Boc-Trp-(N-Me) Nle-Asp-Phe-NH2 and inactive Boc-Trp-(N-Me)Phe-Asp-Phe-NH2

The tetrapeptide Boc-Trp-(N-Me)Nle-Asp-Phe-NH2 is a potent CCK-B agonist. Replacement in this analogue of the norleucine residue by a phenylalanine, to yield Boc-Trp-(N-Me) Phe-Asp-Phe-NH2, led to a 740-fold decrease in affinity whereas the same decrease in affinity was not observed in their nonmethylated counterparts. In order to ascertain the conformational preferences of these two N-methylated tetrapeptides, a study by two-dimensional (2D) nmr spectroscopy and molecular modeling was undertaken. The solution conformation of the two peptides was examined by 1H-nmr in a d6-DMSO/H2O (80:20) mixture. A cis-trans equilibrium, induced by N-methylation, was observed for both analogues, and the proton spectra of the two rotamers were fully characterized in each case. 1H-1H distance constraints, derived from 2D nuclear Overhauser effect spectroscopy and rotating frame nuclear Overhauser effect spectroscopy experiments, were used as inputs for subsequent restrained molecular dynamics simulations. Comparisons of the nmr and molecular modeling data point toward distinct conformational preferences for these two peptides with an opposite spatial orientation of the Trp residue, and could explain the large difference in their biological activities. Furthermore, the tridimensional structure of Boc-Trp-(N-Me)Nle-Asp-Phe-NH2 could serve as a model for the design of nonpeptide CCK-B agonists.

Effects of cholecystokinin antagonists on the discriminative stimulus effects of cocaine in rats and monkeys

Cholecystokinin (CCK) has been implicated as a modulator of dopamine (DA) neurotransmission in the mesolimbic DA pathway, a primary pathway implicated in the effects of cocaine related to its abuse. The present experiment was designed to examine whether an antagonist that acts at either CCKA or CCKB receptors can modify the discriminative stimulus effects of cocaine in animals. Rats (N = 9) and rhesus monkeys (N = 3) were trained in two-lever drug discrimination paradigms to discriminate cocaine from saline. Lever pressing was maintained by food (all rats, two monkeys) or shock avoidance (one monkey). In rats, the CCKA antagonist MK-329 (1.0-32 mg/kg, i.p.) or the CCKB antagonist CI-988 (1.0-32 mg/kg, i.p.) were administered 30 min before determination of cocaine dose-response functions using a cumulative dosing method. In monkeys, CI-988 (8.0-32 mg/kg, i.m.) was administered 30, 60 or 120 min before the training dose of cocaine. In both species, cocaine produced dose-related increases in the percentage of responses emitted on the cocaine-appropriate lever. In rats, MK-329 shifted the cocaine dose-response function to the right in a dose-related manner. In contrast, CI-988 did not systematically alter the effects of cocaine in either rats or monkeys. Since drug discrimination serves as an animal model of the subjective effects of drugs in humans, these results suggest that CCKA antagonists may decrease the subjective effects of cocaine. It seems unlikely that CCKB antagonists will alter the subjective effects of cocaine.

Biological actions of cholecystokinin

Cholecystokinin (CCK) has emerged as an important mammalian neuropeptide, localized in peripheral organs and in the central nervous system. This review presents an overview of the molecular aspects of CCK peptides and CCK receptors, the anatomical distribution of CCK, the neurophysiological actions of CCK, release of CCK and effects of CCK on release of other neurotransmitters, and the actions of CCK on digestion, feeding, cardiovascular function, respiratory function, neurotoxicity and seizures, cancer cell proliferation, analgesia, sleep, sexual and reproductive behaviors, memory, anxiety, and dopamine-mediated exploratory and rewarded behaviors. Human clinical studies of CCK in feeding disorders and panic disorders are described. New findings are presented on potent, nonpeptide CCK antagonists, selective for the two CCK receptor subtypes, which demonstrate that endogenous CCK has biologically important effects on physiology and behavior.

Correlative circadian rhythms of cholecystokinin and dopamine content in nucleus accumbens and striatum of rat brain

Due to contrary results concerning the interaction of cholecystokinin and dopamine (CCK/DA) circadian variations in CCK/DA concentration were investigated in forebrain nuclei of rats (Nc. accumbens, striatum) in order to assess the influence of time of day on neurotransmission. CCK was determined by a radioimmunoassay, DA was measured by electrochemical detection after HPLC separation. A distinct circadian rhythm, superimposed by harmonics (12 h, 6 h) was found in the content of both DA and CCK. A trough was shown for CCK during the light phase and a crest during the late afternoon and the dark phase, respectively. For DA the opposite was found. Caused by a phase-shift of about 3-4 h, the CCK/DA rhythms are negatively correlated. The differences are significant at 11.00 h, 13.00 h, 21.00 h, and 03.00 h. The results indicate that circadian processes are involved in neuronal transmission of CCK and DA.

New evidence for a membrane-bound pathway in hormone receptor binding

The fully active cholecystokinin analog (Thr,Nle)-CCK-9 was lipo-derivatized by N-terminal grafting of a dimyristoylglycerol moiety to induce tight interdigitation with cell membrane bilayers. While the parent CCK peptide was shown to interact only transiently with small unilamellar phospholipid vesicles, the lipo-CCK peptide, although self-aggregating into vesicles, inserts rapidly and quantitatively into phospholipid bilayers. Fluorescence and, even more so, NMR data are supportive for a chain reversal of the CCK moiety of the lipo derivative with embedment of the C-terminus into hydrophobic compartments of the bilayer. MD simulations allowed for a proposal of the folded form of CCK in bilayers with a helical array parallel to the interface and an amphipathic display of the side chains. In this model, the phenylalanine aromatic ring is heading the peptide molecule and may thus play a decisive role in the lateral penetration of the receptor at the water/lipid interface. In fact, despite the membrane-bound state, its binding affinity for rat pancreatic acini is comparable to that of the CCK peptide when tested after a 3-h equilibration period but 5-6-fold lower at 45 min, suggesting that the association rate is significantly lower than that of the unmodified CCK peptide. This can rationally be attributed to the tight interdigitation of the double-tailed lipo moiety with the membrane bilayer. Moreover, an escape of the lipopeptide into the extracellular aqueous phase is energetically highly unfavored; therefore, the receptor can only be reached by a membrane-bound two-dimensional migration. The observed difference in amplification between binding and amylase secretion may result from inadequate occupation of low-affinity CCK receptors, which leads then to poor couplings to G-proteins. Nevertheless the data confirm that lateral penetration of receptor structures is possible, and thus, preadsorption of peptide (neuro)hormones at the cell membrane bilayer may indeed represent the first step in the receptor recognition process.

Autoradiographic localization of CCK-8 binding sites in the rat brain: effects of chronic methamphetamine administration on these sites

The effects of chronic methamphetamine (MAP) administration (at a dose of 4 mg/kg for 14 days) on [3H]pCCK-8 binding sites in the rat brain were investigated by an in vitro quantitative receptor autoradiographic technique. The number of [3H]pCCK-8 binding sites was significantly reduced in layers III and IV of the medial frontal, anterior, and posterior cingulate cortices, in layers II-IV of the retrosplenial cortex, in layers III-VI of the dorsal insular cortex, and in the reticular nucleus of the thalamus, compared to these numbers in a control group of rats that received physiologic saline. Further, chronic methamphetamine administration led to a significant increase in the number of these binding sites in layer I of the entorhinal cortex. These findings indicate the CCK peptides in the limbic lobe may be closely related to the development of the behavioral changes associated with methamphetamine sensitization. In addition, these results provide supporting evidence for the involvement of the limbic system in the pathophysiology of schizophrenia.

Inhibition of A9 and A10 dopamine cells by the cholecystokinin-B antagonist LY262691: mediation through feedback pathways from forebrain sites

The diphenylpyrazolidinone cholecystokinin-B (CCK-B) antagonist LY262691 has been shown to decrease the number of spontaneously active dopamine (DA) cells in the ventral tegmental area (A10) and substantia nigra (A9) of the anesthetized rat. In the present study, we examined the localization of the receptors mediating these effects of LY262691 on A9 and A10 DA cells. In one group of anesthetized rats, the effects of systemic administration of LY262691 on the number of spontaneously active A9 or A10 DA cells was determined using extracellular, single-unit recordings after radio frequency lesions were placed in the nucleus accumbens, caudate-putamen, or medial prefrontal cortex. Lesions of the caudate-putamen blocked the effects of systemically administered LY262691 on the number of spontaneously active A9, but not A10, DA cells. Conversely, lesions of the n. accumbens blocked the effects of systemically administered LY262691 on A10, but not A9, DA cells. Lesions of the medial prefrontal cortex blocked the effects of systemically administered LY262691 on both A9 and A10 DA cells. In a separate group of anesthetized rats, the number of spontaneously active A9 or A10 DA cells was determined after LY262691 was microinjected into the n. accumbens, caudate-putamen, or medial prefrontal cortex. Microinjection of LY262691 into the caudate-putamen led to a significant decrease in the number of spontaneously active A9, but not A10, DA cells. Conversely, microinjection of LY262691 into the n. accumbens or medial prefrontal cortex led to a significant decrease in the number of spontaneously active A10, but not A9, DA cells.(ABSTRACT TRUNCATED AT 250 WORDS)

PD 135158, a CCKB/gastrin receptor antagonist, stimulates rat pancreatic enzyme secretion as a CCKA receptor agonist

The CCKB/gastrin receptor antagonist, PD 135158 (CAM 1028), surprisingly stimulates lipase release from isolated rat pancreatic acini dose dependently in a biphasic manner, with identical efficacy but lower potency compared to cholecystokinin octapeptide (CCK-8). Half-maximal stimulation occurred at 0.6 microM and maximal secretion was induced at 50 microM. Supramaximal concentrations decreased lipase release. Acinar lipase secretion in response to 25 pM CCK-8 or 1 microM CAM-1028 was abolished by 5 microM of the specific CCKA receptor antagonist loxiglumide (CR 1505), half-maximal inhibition was observed at 0.6 microM for CCK-8 and 0.4 microM for PD 135158. These data demonstrate that the CCKB/gastrin receptor antagonist, PD 135158, acts as a full agonist at the rat pancreatic CCKA receptor.

Release of cholecystokinin-like immunoreactivity in the frontal cortex of conscious rats as assessed by transcerebral microdialysis: effects of different depolarizing stimuli

The release of cholecystokinin-like immunoreactivity (CCK-LI) from the frontal cortex of freely moving rats has been studied using a transcerebral microdialysis technique coupled to a radioimmunoassay procedure. Basal levels of CCK-LI in the dialysate were above detection limits (2.4 +/- 0.7 pg/20 min; n = 8). High-K+ media evoked CCK-LI overflow in a concentration-dependent manner. The threshold concentration was 50 mM KCl. The peak overflow evoked by 100 mM K+ amounted to 42.7 +/- 2.8 pg/20 min (n = 6); it was totally Ca2+ dependent but insensitive to 1 microM tetrodotoxin. Infusion of 4-aminopyridine (1 mM; 20 min) evoked an overflow of CCK-LI (32 +/- 2.3 pg/20 min; n = 4), which was totally Ca2+ dependent and tetrodotoxin sensitive. Depolarization with 100 micrograms/ml of veratrine (20 min) provoked a CCK-LI overflow (62.2 +/- 10 pg/20 min; n = 6), which was also blocked by tetrodotoxin or by the absence of Ca2+ ions. The CCK-LI material collected under basal conditions or during veratrine infusion consisted essentially of CCK octapeptide sulfate. The veratrine-induced CCK-LI overflow did not change significantly when the infusion time was prolonged to 100 min. A second 20-min stimulus with 100 micrograms/ml of veratrine applied 200 min after a first 20-min stimulus evoked a barely significant CCK-LI overflow. These data suggest that one single 20-min stimulus with 100 micrograms/ml of veratrine may be sufficient to deplete the CCK-LI releasable stores and that > 200 min are required to replenish the depleted CCK-containing vesicles.(ABSTRACT TRUNCATED AT 250 WORDS)

Involvement of D2 dopaminergic receptors in the emotional and motivational responses induced by injection of CCK-8 in the posterior part of the rat nucleus accumbens

When CCK-8 was injected in the rat posterior nucleus accumbens, where it is in part co-localized with dopamine, a decrease in exploration of the four hole box and the elevated plus maze was observed. In this study, a selective destruction of the dopaminergic mesoaccumbens pathway induced by local injection of 6-hydroxydopamine (6-OHDA) in the nucleus accumbens was found to suppress the CCK-8-evoked behavioral effects. Moreover, an ex vivo measurement of the dopaminergic metabolism has been performed after injection of CCK-8 in the posterior nucleus accumbens by electrochemical detection of dopamine and its metabolites extracted from punches of brain tissue. The results showed that CCK-8 decreased the turnover of dopamine in the posterior part but not in the anterior part of the nucleus accumbens or in the ventral tegmental area. Furthermore, sulpiride, a selective antagonist for D2 dopamine receptors, but not SCH 23390, a selective antagonist for D1 dopamine receptors, prevented CCK-8-induced behavioral responses. Taken together, these results suggest that CCK-8 could be involved in behavioral adaptation to situations producing change in emotional and/or motivational states through modulation of presynaptic D2 receptor functioning.

Social isolation of rats increases the density of cholecystokinin receptors in the frontal cortex and abolishes the anti-exploratory effect of caerulein

The role of cholecystokinin (CCK) receptors in the development of anxiety caused by social isolation of rats was studied using the elevated plus-maze and receptor binding techniques. The isolation of male Wistar rats significantly reduced their exploratory activity in the elevated plus-maze compared with that of rats kept in groups of four. Caerulein (0.1-5 micrograms/kg s.c.), an agonist at CCK receptors, only at the highest dose (5 micrograms/kg) significantly decreased the exploratory behaviour of rats housed in groups, but not in the isolated rats. By contrast, small doses of caerulein (0.1-0.5 microgram/kg) even tended to increase the behavioural activity of isolated rats in the plus-maze test. In parallel to the behavioural changes, isolation of the rats increased the number of [3H]pCCK-8 binding sites in the frontal cortex, but not in the other forebrain structures (the mesolimbic area, striatum and hippocampus). Isolation did not affect the density of benzodiazepine receptors in the frontal cortex. In conclusion, the isolation of rats for 7 days produced anxiogenic-like effect on the behaviour of rats and increased the number of CCK receptors in the frontal cortex without affecting benzodiazepine receptors.

Effects of angiotensin II on dopamine and serotonin turnover in the striatum of conscious rats

This study was designed to evaluate the functional significance of angiotensin II (Ang II) receptors identified by previous receptor autoradiography studies to be located presynaptically on terminals of dopaminergic neurones projecting to the striatum. Microdialysis was performed in the striatum of conscious freely moving rats and dopamine and serotonin metabolites measured by HPLC with electrochemical detection. During perfusion with artificial CSF, the major extracellular dopamine metabolite identified was DOPAC with smaller concentrations of HVA. When Ang II (1 microM) was introduced into the dialysis perfusion medium, DOPAC output increased markedly, peaking at 219%, and returned to control with vehicle perfusion during the recovery period. This increase in DOPAC output with Ang II was completely blocked by co-administration of the AT1 selective antagonist, Losartan (1 microM). Administration of Losartan alone led to a significant (16%) depression of DOPAC output relative to vehicle, suggesting that dopamine release is under a tonic facilitatory influence of Ang II via the AT1 receptor subtype. Parallel, but smaller changes were seen with HVA outputs. During Ang II perfusion the output of HVA was elevated 34-79% of that in vehicle-treated rats and this effect was completely abolished by concomitant administration of Losartan. As was observed with DOPAC output, administration of Losartan alone led to a 13-24% depression of HVA output compared to vehicle perfusion. When nomifensine (10 microM) was included in the infusion fluid, dopamine was clearly measurable. Ang II perfusion increased the levels of dopamine to 225%. Values returned towards baseline during the recovery period. Ang II administration also increased (by 15% and 55%) the levels of the major serotonin metabolite, 5HIAA.(ABSTRACT TRUNCATED AT 250 WORDS)

CCK in animal and human research on anxiety

Much data has accumulated over the past decade supporting the hypothesis that CCK plays a role in the neurobiology of anxiety and panic attacks. These data originated from animal studies and human studies that were initiated independently, but the conclusions are remarkably consistent. In this review, Jacques Bradwejn and colleagues examine the evidence for a role of CCK in anxiety and panic attacks, and highlight the consistencies between animal and human studies.

Release of cholecystokinin in the central nervous system

The octapeptide cholecystokinin (CCK) is one of the most abundant neuropeptides of the central nervous system. A number of features (for instance heterogeneity of the regional distribution, subcellular localization at the nerve terminal level, calcium-dependent release upon nervous tissue depolarization) support the candidacy of CCK as a neurotransmitter. The reported co-existence of CCK and dopamine in some meso-limbic neurons has led to speculation that the neuropeptide may interact with the catecholamine in neuropsychopathologies linked to dopamine dysfunctions, like schizophrenia. Data from the experimental animals have so far generated conflicting results. It should be noted that the interactions between CCK and dopamine, and, in particular, the effects of CCK and dopamine on each other release, both in vitro and in vivo, have been poorly investigated and would require special attention. Evidence is accumulating that CCK may participate in the expression of anxiety. Indeed antagonists at the central CCK receptors exhibit anxiolytic activity in the laboratory animal. An interesting linkage appears to exist in the brain between 5-hydroxytryptamine (5-HT) and CCK. Activation of 5-HT3 receptors was found to increase CCK release from rat cortical or nucleus accumbens synaptosomes. Interestingly, antagonists at 5-HT3 receptors appear to possess anxiolytic activity. Recent studies carried out in conscious unrestrained rats show that the calcium-dependent, tetrodotoxin-sensitive release of CCK-like immunoreactivity evoked in the rat frontal cortex by veratrine infusion can be inhibited by submicromolar concentrations of 5-HT3 receptor antagonists.(ABSTRACT TRUNCATED AT 250 WORDS)

Cholecystokinin receptor density in the striatum of the spontaneously hypertensive rat

The possibility that cholecystokinin in the striatum may be involved in hypertension was investigated using in vitro receptor autoradiography. The binding density of 125I-Bolton Hunter labeled cholecystokinin octapeptide (125I-BH-CCK8) was determined using computer-assisted densitometry in the striatum of the spontaneously hypertensive rat (SHR) and its control the Wistar-Kyoto rat (WKY). A significant increase in 125I-BH-CCK8 binding density was found in the lateral part of the caudate-putamen of the SHR. In contrast, a significant decrease in 125I-BH-CCK8 binding density was found in the posteromedial nucleus accumbens of the SHR. These results indicate that CCK8 receptor density is altered in the striatum of the SHR and suggest a role for CCK8 receptors in the pathophysiology of hypertension.

Peripheral biological activity of SR 27897: a new potent non-peptide antagonist of CCKA receptors

SR 27897 is a new non-peptide antagonist of CCKA receptors: 1-[[2-(4-(2-chlorophenyl)thiazol-2-yl)aminocarbonyl] indolyl] acetic acid. This compound is a potent ligand for CCKA binding sites (rat pancreatic membranes, Ki = 0.2 nM) and is highly selective (CCKB and gastrin/CCKA IC50 ratios of 800 and 5000 respectively). In vitro, it is a competitive antagonist of cholecystokinin (CCK)-stimulated amylase release in isolated rat pancreatic acini (pA2 = 7.50) and of CCK-induced guinea pig gall bladder contractions (pA2 = 9.57). In in vivo gastrointestinal models, SR 27897 confirmed the potency obtained in vitro: at 1 mg/kg (i.v.) it completely reversed the CCK-induced amylase secretion, at 3 micrograms/kg (p.o.) it antagonized by 50% the CCK-induced inhibition of gastric emptying of a charcoal meal in mice, and 72 micrograms/kg (p.o.) was the median effective dose for inhibiting CCK-induced gall bladder emptying in mice. SR 27897 was also very active (ED50 = 27 micrograms/kg p.o.) in the gall bladder emptying protocol with egg yolk as an inducer of endogenous CCK release. SR 27897 had a long-lasting action in all the experiments, with no differences between oral and intravenous routes of administration. SR 27897 was more or less effective than L-364,718, depending on the model and the species. Both compounds increased the gall bladder volume of fasting mice, but the effect of SR 27897 was 10 times lower than that of L-364,718. In summary, SR 27897 is a selective antagonist of CCKA receptors, is highly potent in animal models whatever the route of administration and has a long duration of action.(ABSTRACT TRUNCATED AT 250 WORDS)

Effects of anti-CCK-8 antiserum on acquisition and retrieval by mice in an appetitive task

Endogenous cholecystokinin (CCK) was blocked in the posterior cingulate cortex of BALB/c mice using a local injection of anti-CCK-8 antiserum, and memory effects were tested using Go-No Go visual discrimination conditioning. Injection of 0.4 microliter of anti-CCK-8 antiserum diluted to 1:10, 10-15 min before each session, produced substantial learning impairment on the discrimination task. But when injections were stopped, animals began to learn the task normally, showing that the anti-CCK antiserum effect was reversible. When the antiserum was administered at the same dose before a single test session 14 days after the end of the initial training, the retrieval process was also disturbed. These results show that cingulate cholecystokinin is essential for memory processes and suggest that cholecystokinin octapeptide may be a neuromodulator of the thalamo-cingulate pathway of Papez's circuit, which is involved in memory processes.

Molecular cloning of the human brain and gastric cholecystokinin receptor: structure, functional expression and chromosomal localization

The receptors for the brain and gastrointestinal peptide, cholecystokinin, can be classified into CCKA and CCKB subtypes. Having recently cloned the rat CCKB receptor, we used it's cDNA to isolate the human CCKB receptor homologue from brain and stomach which encodes a 447 amino acid protein with 90% identity to both rat CCKB and canine gastrin receptors. Northern hybridization identifies transcripts from stomach, pancreas, brain and gallbladder. The CCKB receptor gene maps to chromosome 11. Expression of the receptor cDNA in COS-7 cells was characteristic of a CCKB receptor subtype pharmacology. These data confirm that we have cloned a novel gene for the human brain and stomach CCKB receptor.

Failure of cholecystokinin antagonists to modify the discriminative stimulus effects of cocaine

Enhancement of brain dopamine (DA) activity is believed to be an important mechanism underlying the discriminative stimulus effects of cocaine in animals and the subjective effects of cocaine in people. Cholecystokinin (CCK) receptors, which are colocalized with DA receptors in several brain regions, have been implicated as modulators of DA activity, leading to speculation that CCK-based drugs might be developed as therapeutics for cocaine abuse. In the present study, the effects of cocaine alone and after pretreatment with the selective CCKA antagonist devazepide and the selective CCKB antagonist CI 988 were determined in squirrel monkeys trained to discriminate cocaine (1.0 mg/kg) from saline. When tested alone, cocaine engendered dose-related increases in the percentage of cocaine-appropriate responses, reaching virtually exclusive responding on the cocaine-associated lever after doses of 1.0 mg/kg or greater. Pretreatment with a wide range of doses of either devazepide (0.01-3.0 mg/kg) or CI 988 (0.3-30 mg/kg) did not systematically alter the discriminative stimulus effects of any dose of cocaine. The results do not support a role for CCK antagonists in the pharmacotherapy of cocaine abuse.

Pre-synaptic dopaminergic control mechanisms for CCK-8 like immunoreactivity in the rat medial frontal cortex

In order to study the control mechanism of cholecystokinin (CCK) contents of the rat brain mediated by pre-synaptic receptors in dopamine (DA) neurons, R(+) and S(-) compounds of 3-(3-hydroxyphenyl)-N-n-propylpiperidine (3-PPP), which are selective pre-synaptic dopaminergic agents, were administered in rats at low and high doses. CCK-8-like immunoreactivity (CCK-8 LI) was measured in the medial frontal cortex. In another experiment, a neurotoxin, N-methyl-D-aspartic acid (NMDA) was used to degenerate efferent CCK neurons and CCK interneurons of the medial frontal cortex, followed by an intraperitoneal administration of apomorphine hydrochloride (APO) to study the effect on CCK-8 LI via the pre-synaptic DA receptor. According to the results of these experiments, CCK-8 LI was increased in the medial frontal cortex in response to the stimulation of pre-synaptic DA receptor, suggesting a control of CCK-8 release, at least in part, by the pre-synaptic DA receptor.

Brain and gastrointestinal cholecystokinin receptor family: structure and functional expression

Cholecystokinin was one of the first gastrointestinal peptides discovered in the mammalian brain. In the central nervous system there is evidence for CCKA and CCKB receptor subtypes. The CCKA receptors occur in a few localized areas of the central and peripheral nervous systems where they modulate feeding and dopamine-induced behavior. CCKB receptors occur throughout the central nervous system where they modulate anxiety, analgesia, arousal, and neuroleptic activity. We have recently purified and cloned a CCKA receptor cDNA from rat pancreas that allowed isolation of an identical cDNA from rat brain by using the polymerase chain reaction. Using low-stringency hybridization screening of cDNA libraries from rat brain and AR42-J cells, which possess large numbers of CCKB receptors, we identified previously unreported cDNAs, the sequence of which were identical in both tissues. The cDNA sequence encodes a 452-amino acid protein that is 48% identical to the CCKA receptor and contains seven transmembrane domains characteristics of guanine nucleotide-binding regulatory protein-coupled receptors. COS-7 cells transfected with this cDNA expressed binding sites for agonists and antagonists characteristic of a CCKB receptor subtype. We conclude that this cDNA isolated from rat brain and AR42-J cells is a receptor of the CCKB subtype and that the respective cDNAs for both CCKA and CCKB are identical in the brain and gastrointestinal system.

Molecular modelling of asperlicin derived cholecystokinin A receptor antagonists

The C3-substituted benzodiazepines derived from asperlicin, e.g. devazepide (L-364,718, MK-329), constitute the most potent class of cholecystokinin A-type (CCKA) receptor antagonists. In order to gain insight into the prerequisites for binding, we examined the conformational properties of both potent and weak representatives of this class with computer assisted molecular modelling (CAMM) techniques. The CAMM results indicate that the binding site for the C3-substituents is a planar slot on the CCKA receptor surface and, in addition, allow the proposal of a model which describes the relative binding mode of the less potent R isomers versus that of the S isomers. The latter model illustrates the unique spatial properties of the benzodiazepine moiety, which we suggest functions primarily as an invertible core which assures an optimal arrangement of attached substituents.

Involvement of central dopamine and D1 receptors in stress-induced colonie motor alterations in rats

The role of central versus peripheral influence of dopamine (DA) in the genesis of emotional stress (ES) induced by fear to receive electric footshocks on colonic motility was evaluated in rats equipped with implanted electrodes on the proximal colon. In control rats, the frequency of colonic spike bursts increased from 7.5 +/- 1.9 to 16.0 +/- 2.1 per 10 min when the rats were placed in a test box where they had previously received electric footshocks. This increase induced by ES was significantly p less than 0.05, reduced by previous ICV or IP administration of (+)SCH 23390 (a D1 receptor antagonist) at doses of 10 and 100 micrograms/Kg, respectively. Although sulpiride (a D2 antagonist) injected ICV or IP at similar doses had no effect on the ES-induced increase in the frequency of colonic spike bursts. DA (100 micrograms/kg), and the selective D1 (SKF 38383) or D2 (quinpirole) receptor agonist injected ICV at a dose of 5 micrograms/kg also increased significantly by 48.7, 54.8, and 68.7%, respectively, the colonic spike burst frequency whereas they are inactive when injected IP at similar and higher doses. These results suggest that, in rats, (a) emotional stress stimulates colonic motility through the stimulation of dopaminergic neurons involving D1 receptors and (b) exogenous activation of central D1 and D2 receptors similarly stimulate colonic motility by increasing the occurrence of colonic spike bursts.

Purification, molecular cloning, and functional expression of the cholecystokinin receptor from rat pancreas

The cholecystokinin (CCK) family of peptides and their receptors are widely distributed throughout the gastrointestinal and central nervous systems where they regulate secretion, motility, growth, anxiety, and satiety. The CCK receptors can be subdivided into at least two subtypes, CCKA and CCKB on the basis of pharmacological studies. We report here the purification of the CCKA receptor to homogeneity from rat pancreas by using ion-exchange and multiple affinity chromatographic separations. This allowed partial peptide sequencing after chemical/enzymatic cleavage and synthesis of degenerate oligonucleotide primers. These primers were used for initial cloning of the cDNA from rat pancreas by PCR. The predicted protein sequence of the cDNA clone contained the five partial peptide sequences obtained from the purified protein. Seven putative transmembrane domains suggest its membership in the guanine nucleotide-binding regulatory protein-coupled receptor superfamily. In vitro transcripts of the cDNA clone were functionally expressed in Xenopus oocytes and displayed the expected agonist and antagonist specificity.

Alterations in brain cholecystokinin receptors in suicide victims

Cholecystokinin (CCK) and benzodiazepine receptor binding characteristics were analyzed in the brain tissue samples from 19 suicide victims and 23 control cases. In the frontal cortex, significantly higher apparent number of CCK receptors and affinity constants were found in the series of suicide victims. These differences between suicides and controls were present in similar proportions when the suicide cases with depressive syndrome or violent or non-violent means of self-killing were compared to matched controls. However, when the samples were split into subgroups consisting of persons either below or over the age of 60 years, significant differences in the CCK receptor characteristics in the frontal cortex were observed only between younger suicides and controls. Furthermore, the younger suicide victims had a higher density of CCK receptors in the cingulate cortex, whereas in older suicides the value was lower as compared to age-matched controls. No difference in benzodiazepine receptor binding was found between control and suicide groups. The results of this investigation suggest that CCK-ergic neurotransmission is linked to self-destructive behaviour, probably through its impact on anxiety and adaptational deficits.

Cholecystokinin (CCK) and schizophrenia: the selective CCKB antagonist LY262691 decreases midbrain dopamine unit activity

Chronic administration of antipsychotic drugs has previously been shown to decrease the number of spontaneously active midbrain dopamine cells. In an effort to evaluate CCK antagonists as potential antipsychotic drugs, we have examined the effects of a selective CCK-B antagonist, LY262691, on the number of spontaneously active midbrain dopamine neurons using extracellular, single-unit recordings in anesthetized rats. Acute and chronic administration of LY262691 decreased the number of spontaneously active A9 and A10 dopamine cells. Administration of apomorphine did not reverse the effect of LY262691 on A9 and A10 dopamine neurons. These results suggest that LY262691 may have an antipsychotic effect without delayed onset, and that its effects on dopamine cells may not be mediated through depolarization inactivation.